blob: e49a4779a89f85712ec6f90a9d115345e49d4a8d [file] [log] [blame] [edit]
/*
* Copyright (c) 2021, Alliance for Open Media. All rights reserved
*
* This source code is subject to the terms of the BSD 3-Clause Clear License
* and the Alliance for Open Media Patent License 1.0. If the BSD 3-Clause Clear
* License was not distributed with this source code in the LICENSE file, you
* can obtain it at aomedia.org/license/software-license/bsd-3-c-c/. If the
* Alliance for Open Media Patent License 1.0 was not distributed with this
* source code in the PATENTS file, you can obtain it at
* aomedia.org/license/patent-license/.
*/
#include <wx/wx.h>
#include <wx/aboutdlg.h>
#include <wx/cmdline.h>
#include <wx/dcbuffer.h>
#include "aom/aom_decoder.h"
#include "aom/aomdx.h"
#include "av1/common/av1_common_int.h"
#include "av1/decoder/accounting.h"
#include "av1/decoder/inspection.h"
#include "common/tools_common.h"
#include "common/video_reader.h"
#define OD_SIGNMASK(a) (-((a) < 0))
#define OD_FLIPSIGNI(a, b) (((a) + OD_SIGNMASK(b)) ^ OD_SIGNMASK(b))
#define OD_DIV_ROUND(x, y) (((x) + OD_FLIPSIGNI((y) >> 1, x)) / (y))
enum {
OD_LUMA_MASK = 1 << 0,
OD_CB_MASK = 1 << 1,
OD_CR_MASK = 1 << 2,
OD_ALL_MASK = OD_LUMA_MASK | OD_CB_MASK | OD_CR_MASK
};
class AV1Decoder {
private:
FILE *input;
wxString path;
AvxVideoReader *reader;
const AvxVideoInfo *info;
insp_frame_data frame_data;
aom_codec_ctx_t codec;
bool show_padding;
public:
aom_image_t *image;
int frame;
int plane_mask;
AV1Decoder();
~AV1Decoder();
bool open(const wxString &path);
void close();
bool step();
int getWidthPadding() const;
int getHeightPadding() const;
void togglePadding();
int getWidth() const;
int getHeight() const;
bool getAccountingStruct(Accounting **acct);
bool setInspectionCallback();
static void inspect(void *decoder, void *data);
};
AV1Decoder::AV1Decoder()
: reader(NULL), info(NULL), decoder(NULL), show_padding(false), image(NULL),
frame(0) {}
AV1Decoder::~AV1Decoder() {}
void AV1Decoder::togglePadding() { show_padding = !show_padding; }
bool AV1Decoder::open(const wxString &path) {
reader = aom_video_reader_open(path.mb_str());
if (!reader) {
fprintf(stderr, "Failed to open %s for reading.", path.mb_str().data());
return false;
}
this->path = path;
info = aom_video_reader_get_info(reader);
decoder = get_aom_decoder_by_fourcc(info->codec_fourcc);
if (!decoder) {
fprintf(stderr, "Unknown input codec.");
return false;
}
printf("Using %s\n", aom_codec_iface_name(decoder));
if (aom_codec_dec_init(&codec, decoder, NULL, 0)) {
fprintf(stderr, "Failed to initialize decoder.");
return false;
}
ifd_init(&frame_data, info->frame_width, info->frame_height);
setInspectionCallback();
return true;
}
void AV1Decoder::close() {}
bool AV1Decoder::step() {
if (aom_video_reader_read_frame(reader)) {
size_t frame_size;
const unsigned char *frame_data;
frame_data = aom_video_reader_get_frame(reader, &frame_size);
if (aom_codec_decode(&codec, frame_data, frame_size, NULL)) {
fprintf(stderr, "Failed to decode frame.");
return false;
} else {
aom_codec_iter_t iter = NULL;
image = aom_codec_get_frame(&codec, &iter);
if (image != NULL) {
frame++;
return true;
}
return false;
}
}
return false;
}
int AV1Decoder::getWidth() const {
return info->frame_width + 2 * getWidthPadding();
}
int AV1Decoder::getWidthPadding() const {
return show_padding ? AOMMAX(info->frame_width + 16,
ALIGN_POWER_OF_TWO(info->frame_width, 6)) -
info->frame_width
: 0;
}
int AV1Decoder::getHeight() const {
return info->frame_height + 2 * getHeightPadding();
}
int AV1Decoder::getHeightPadding() const {
return show_padding ? AOMMAX(info->frame_height + 16,
ALIGN_POWER_OF_TWO(info->frame_height, 6)) -
info->frame_height
: 0;
}
bool AV1Decoder::getAccountingStruct(Accounting **accounting) {
return aom_codec_control(&codec, AV1_GET_ACCOUNTING, accounting) ==
AOM_CODEC_OK;
}
bool AV1Decoder::setInspectionCallback() {
aom_inspect_init ii;
ii.inspect_cb = AV1Decoder::inspect;
ii.inspect_ctx = (void *)this;
return aom_codec_control(&codec, AV1_SET_INSPECTION_CALLBACK, &ii) ==
AOM_CODEC_OK;
}
void AV1Decoder::inspect(void *pbi, void *data) {
AV1Decoder *decoder = (AV1Decoder *)data;
ifd_inspect(&decoder->frame_data, pbi, 0);
}
#define MIN_ZOOM (1)
#define MAX_ZOOM (4)
class AnalyzerPanel : public wxPanel {
DECLARE_EVENT_TABLE()
private:
AV1Decoder decoder;
const wxString path;
int zoom;
unsigned char *pixels;
const bool bit_accounting;
double *bpp_q3;
int plane_mask;
// The display size is the decode size, scaled by the zoom.
int getDisplayWidth() const;
int getDisplayHeight() const;
bool updateDisplaySize();
void computeBitsPerPixel();
public:
AnalyzerPanel(wxWindow *parent, const wxString &path,
const bool bit_accounting);
~AnalyzerPanel();
bool open(const wxString &path);
void close();
void render();
void togglePadding();
bool nextFrame();
void refresh();
int getZoom() const;
bool setZoom(int zoom);
void setShowPlane(bool show_plane, int mask);
void onPaint(wxPaintEvent &event); // NOLINT
};
BEGIN_EVENT_TABLE(AnalyzerPanel, wxPanel)
EVT_PAINT(AnalyzerPanel::onPaint)
END_EVENT_TABLE()
AnalyzerPanel::AnalyzerPanel(wxWindow *parent, const wxString &path,
const bool bit_accounting)
: wxPanel(parent), path(path), zoom(0), pixels(NULL),
bit_accounting(bit_accounting), bpp_q3(NULL), plane_mask(OD_ALL_MASK) {}
AnalyzerPanel::~AnalyzerPanel() { close(); }
void AnalyzerPanel::setShowPlane(bool show_plane, int mask) {
if (show_plane) {
plane_mask |= mask;
} else {
plane_mask &= ~mask;
}
}
void AnalyzerPanel::render() {
aom_image_t *img = decoder.image;
const int hbd = !!(img->fmt & AOM_IMG_FMT_HIGHBITDEPTH);
int y_stride = img->stride[0] >> hbd;
int cb_stride = img->stride[1] >> hbd;
int cr_stride = img->stride[2] >> hbd;
int p_stride = 3 * getDisplayWidth();
unsigned char *y_row = img->planes[0];
unsigned char *cb_row = img->planes[1];
unsigned char *cr_row = img->planes[2];
uint16_t *y_row16 = reinterpret_cast<uint16_t *>(y_row);
uint16_t *cb_row16 = reinterpret_cast<uint16_t *>(cb_row);
uint16_t *cr_row16 = reinterpret_cast<uint16_t *>(cr_row);
unsigned char *p_row = pixels;
int y_width_padding = decoder.getWidthPadding();
int cb_width_padding = y_width_padding >> 1;
int cr_width_padding = y_width_padding >> 1;
int y_height_padding = decoder.getHeightPadding();
int cb_height_padding = y_height_padding >> 1;
int cr_height_padding = y_height_padding >> 1;
for (int j = 0; j < decoder.getHeight(); j++) {
unsigned char *y = y_row - y_stride * y_height_padding;
unsigned char *cb = cb_row - cb_stride * cb_height_padding;
unsigned char *cr = cr_row - cr_stride * cr_height_padding;
uint16_t *y16 = y_row16 - y_stride * y_height_padding;
uint16_t *cb16 = cb_row16 - cb_stride * cb_height_padding;
uint16_t *cr16 = cr_row16 - cr_stride * cr_height_padding;
unsigned char *p = p_row;
for (int i = 0; i < decoder.getWidth(); i++) {
int64_t yval;
int64_t cbval;
int64_t crval;
int pmask;
unsigned rval;
unsigned gval;
unsigned bval;
if (hbd) {
yval = *(y16 - y_width_padding);
cbval = *(cb16 - cb_width_padding);
crval = *(cr16 - cr_width_padding);
} else {
yval = *(y - y_width_padding);
cbval = *(cb - cb_width_padding);
crval = *(cr - cr_width_padding);
}
pmask = plane_mask;
if (pmask & OD_LUMA_MASK) {
yval -= 16;
} else {
yval = 128;
}
cbval = ((pmask & OD_CB_MASK) >> 1) * (cbval - 128);
crval = ((pmask & OD_CR_MASK) >> 2) * (crval - 128);
/*This is intentionally slow and very accurate.*/
rval = OD_CLAMPI(
0,
(int32_t)OD_DIV_ROUND(
2916394880000LL * yval + 4490222169144LL * crval, 9745792000LL),
65535);
gval = OD_CLAMPI(0,
(int32_t)OD_DIV_ROUND(2916394880000LL * yval -
534117096223LL * cbval -
1334761232047LL * crval,
9745792000LL),
65535);
bval = OD_CLAMPI(
0,
(int32_t)OD_DIV_ROUND(
2916394880000LL * yval + 5290866304968LL * cbval, 9745792000LL),
65535);
unsigned char *px_row = p;
for (int v = 0; v < zoom; v++) {
unsigned char *px = px_row;
for (int u = 0; u < zoom; u++) {
*(px + 0) = (unsigned char)(rval >> 8);
*(px + 1) = (unsigned char)(gval >> 8);
*(px + 2) = (unsigned char)(bval >> 8);
px += 3;
}
px_row += p_stride;
}
if (hbd) {
int dc = ((y16 - y_row16) & 1) | (1 - img->x_chroma_shift);
y16++;
cb16 += dc;
cr16 += dc;
} else {
int dc = ((y - y_row) & 1) | (1 - img->x_chroma_shift);
y++;
cb += dc;
cr += dc;
}
p += zoom * 3;
}
int dc = -((j & 1) | (1 - img->y_chroma_shift));
if (hbd) {
y_row16 += y_stride;
cb_row16 += dc & cb_stride;
cr_row16 += dc & cr_stride;
} else {
y_row += y_stride;
cb_row += dc & cb_stride;
cr_row += dc & cr_stride;
}
p_row += zoom * p_stride;
}
}
void AnalyzerPanel::computeBitsPerPixel() {
Accounting *acct;
double bpp_total;
int totals_q3[MAX_SYMBOL_TYPES] = { 0 };
int sym_count[MAX_SYMBOL_TYPES] = { 0 };
decoder.getAccountingStruct(&acct);
for (int j = 0; j < decoder.getHeight(); j++) {
for (int i = 0; i < decoder.getWidth(); i++) {
bpp_q3[j * decoder.getWidth() + i] = 0.0;
}
}
bpp_total = 0;
for (int i = 0; i < acct->syms.num_syms; i++) {
AccountingSymbol *s;
s = &acct->syms.syms[i];
totals_q3[s->id] += s->bits;
sym_count[s->id] += s->samples;
}
printf("=== Frame: %-3i ===\n", decoder.frame - 1);
for (int i = 0; i < acct->syms.dictionary.num_strs; i++) {
if (totals_q3[i]) {
printf("%30s = %10.3f (%f bit/symbol)\n", acct->syms.dictionary.strs[i],
(float)totals_q3[i] / 8, (float)totals_q3[i] / 8 / sym_count[i]);
}
}
printf("\n");
}
void AnalyzerPanel::togglePadding() {
decoder.togglePadding();
updateDisplaySize();
}
bool AnalyzerPanel::nextFrame() {
if (decoder.step()) {
refresh();
return true;
}
return false;
}
void AnalyzerPanel::refresh() {
if (bit_accounting) {
computeBitsPerPixel();
}
render();
}
int AnalyzerPanel::getDisplayWidth() const { return zoom * decoder.getWidth(); }
int AnalyzerPanel::getDisplayHeight() const {
return zoom * decoder.getHeight();
}
bool AnalyzerPanel::updateDisplaySize() {
unsigned char *p = (unsigned char *)malloc(
sizeof(*p) * 3 * getDisplayWidth() * getDisplayHeight());
if (p == NULL) {
return false;
}
free(pixels);
pixels = p;
SetSize(getDisplayWidth(), getDisplayHeight());
return true;
}
bool AnalyzerPanel::open(const wxString &path) {
if (!decoder.open(path)) {
return false;
}
if (!setZoom(MIN_ZOOM)) {
return false;
}
if (bit_accounting) {
bpp_q3 = (double *)malloc(sizeof(*bpp_q3) * decoder.getWidth() *
decoder.getHeight());
if (bpp_q3 == NULL) {
fprintf(stderr, "Could not allocate memory for bit accounting\n");
close();
return false;
}
}
if (!nextFrame()) {
close();
return false;
}
SetFocus();
return true;
}
void AnalyzerPanel::close() {
decoder.close();
free(pixels);
pixels = NULL;
free(bpp_q3);
bpp_q3 = NULL;
}
int AnalyzerPanel::getZoom() const { return zoom; }
bool AnalyzerPanel::setZoom(int z) {
if (z <= MAX_ZOOM && z >= MIN_ZOOM && zoom != z) {
int old_zoom = zoom;
zoom = z;
if (!updateDisplaySize()) {
zoom = old_zoom;
return false;
}
return true;
}
return false;
}
void AnalyzerPanel::onPaint(wxPaintEvent &) {
wxBitmap bmp(wxImage(getDisplayWidth(), getDisplayHeight(), pixels, true));
wxBufferedPaintDC dc(this, bmp);
}
class AnalyzerFrame : public wxFrame {
DECLARE_EVENT_TABLE()
private:
AnalyzerPanel *panel;
const bool bit_accounting;
wxMenu *fileMenu;
wxMenu *viewMenu;
wxMenu *playbackMenu;
public:
AnalyzerFrame(const bool bit_accounting); // NOLINT
void onOpen(wxCommandEvent &event); // NOLINT
void onClose(wxCommandEvent &event); // NOLINT
void onQuit(wxCommandEvent &event); // NOLINT
void onTogglePadding(wxCommandEvent &event); // NOLINT
void onZoomIn(wxCommandEvent &event); // NOLINT
void onZoomOut(wxCommandEvent &event); // NOLINT
void onActualSize(wxCommandEvent &event); // NOLINT
void onToggleViewMenuCheckBox(wxCommandEvent &event); // NOLINT
void onResetAndToggleViewMenuCheckBox(wxCommandEvent &event); // NOLINT
void onNextFrame(wxCommandEvent &event); // NOLINT
void onGotoFrame(wxCommandEvent &event); // NOLINT
void onRestart(wxCommandEvent &event); // NOLINT
void onAbout(wxCommandEvent &event); // NOLINT
bool open(const wxString &path);
bool setZoom(int zoom);
void updateViewMenu();
};
enum {
wxID_NEXT_FRAME = 6000,
wxID_SHOW_Y,
wxID_SHOW_U,
wxID_SHOW_V,
wxID_GOTO_FRAME,
wxID_RESTART,
wxID_ACTUAL_SIZE,
wxID_PADDING
};
BEGIN_EVENT_TABLE(AnalyzerFrame, wxFrame)
EVT_MENU(wxID_OPEN, AnalyzerFrame::onOpen)
EVT_MENU(wxID_CLOSE, AnalyzerFrame::onClose)
EVT_MENU(wxID_EXIT, AnalyzerFrame::onQuit)
EVT_MENU(wxID_PADDING, AnalyzerFrame::onTogglePadding)
EVT_MENU(wxID_ZOOM_IN, AnalyzerFrame::onZoomIn)
EVT_MENU(wxID_ZOOM_OUT, AnalyzerFrame::onZoomOut)
EVT_MENU(wxID_ACTUAL_SIZE, AnalyzerFrame::onActualSize)
EVT_MENU(wxID_SHOW_Y, AnalyzerFrame::onResetAndToggleViewMenuCheckBox)
EVT_MENU(wxID_SHOW_U, AnalyzerFrame::onResetAndToggleViewMenuCheckBox)
EVT_MENU(wxID_SHOW_V, AnalyzerFrame::onResetAndToggleViewMenuCheckBox)
EVT_MENU(wxID_NEXT_FRAME, AnalyzerFrame::onNextFrame)
EVT_MENU(wxID_GOTO_FRAME, AnalyzerFrame::onGotoFrame)
EVT_MENU(wxID_RESTART, AnalyzerFrame::onRestart)
EVT_MENU(wxID_ABOUT, AnalyzerFrame::onAbout)
END_EVENT_TABLE()
AnalyzerFrame::AnalyzerFrame(const bool bit_accounting)
: wxFrame(NULL, wxID_ANY, _("AV1 Stream Analyzer"), wxDefaultPosition,
wxDefaultSize, wxDEFAULT_FRAME_STYLE),
panel(NULL), bit_accounting(bit_accounting) {
wxMenuBar *mb = new wxMenuBar();
fileMenu = new wxMenu();
fileMenu->Append(wxID_OPEN, _("&Open...\tCtrl-O"), _("Open AV1 file"));
fileMenu->Append(wxID_CLOSE, _("&Close\tCtrl-W"), _("Close AV1 file"));
fileMenu->Enable(wxID_CLOSE, false);
fileMenu->Append(wxID_EXIT, _("E&xit\tCtrl-Q"), _("Quit this program"));
mb->Append(fileMenu, _("&File"));
wxAcceleratorEntry entries[2];
entries[0].Set(wxACCEL_CTRL, (int)'=', wxID_ZOOM_IN);
entries[1].Set(wxACCEL_CTRL | wxACCEL_SHIFT, (int)'-', wxID_ZOOM_OUT);
wxAcceleratorTable accel(2, entries);
this->SetAcceleratorTable(accel);
viewMenu = new wxMenu();
+viewMenu->Append(wxID_PADDING, _("Toggle padding\tCtrl-p"),
_("Show padding"));
viewMenu->Append(wxID_ZOOM_IN, _("Zoom-In\tCtrl-+"), _("Double image size"));
viewMenu->Append(wxID_ZOOM_OUT, _("Zoom-Out\tCtrl--"), _("Half image size"));
viewMenu->Append(wxID_ACTUAL_SIZE, _("Actual size\tCtrl-0"),
_("Actual size of the frame"));
viewMenu->AppendSeparator();
viewMenu->AppendCheckItem(wxID_SHOW_Y, _("&Y plane\tCtrl-Y"),
_("Show Y plane"));
viewMenu->AppendCheckItem(wxID_SHOW_U, _("&U plane\tCtrl-U"),
_("Show U plane"));
viewMenu->AppendCheckItem(wxID_SHOW_V, _("&V plane\tCtrl-V"),
_("Show V plane"));
mb->Append(viewMenu, _("&View"));
playbackMenu = new wxMenu();
playbackMenu->Append(wxID_NEXT_FRAME, _("Next frame\tCtrl-."),
_("Go to next frame"));
/*playbackMenu->Append(wxID_RESTART, _("&Restart\tCtrl-R"),
_("Set video to frame 0"));
playbackMenu->Append(wxID_GOTO_FRAME, _("Jump to Frame\tCtrl-J"),
_("Go to frame number"));*/
mb->Append(playbackMenu, _("&Playback"));
wxMenu *helpMenu = new wxMenu();
helpMenu->Append(wxID_ABOUT, _("&About...\tF1"), _("Show about dialog"));
mb->Append(helpMenu, _("&Help"));
SetMenuBar(mb);
CreateStatusBar(1);
}
void AnalyzerFrame::onOpen(wxCommandEvent &WXUNUSED(event)) {
wxFileDialog openFileDialog(this, _("Open file"), wxEmptyString,
wxEmptyString, _("AV1 files (*.ivf)|*.ivf"),
wxFD_OPEN | wxFD_FILE_MUST_EXIST);
if (openFileDialog.ShowModal() != wxID_CANCEL) {
open(openFileDialog.GetPath());
}
}
void AnalyzerFrame::onClose(wxCommandEvent &WXUNUSED(event)) {}
void AnalyzerFrame::onQuit(wxCommandEvent &WXUNUSED(event)) { Close(true); }
void AnalyzerFrame::onTogglePadding(wxCommandEvent &WXUNUSED(event)) {
panel->togglePadding();
SetClientSize(panel->GetSize());
panel->render();
panel->Refresh();
}
void AnalyzerFrame::onZoomIn(wxCommandEvent &WXUNUSED(event)) {
setZoom(panel->getZoom() + 1);
}
void AnalyzerFrame::onZoomOut(wxCommandEvent &WXUNUSED(event)) {
setZoom(panel->getZoom() - 1);
}
void AnalyzerFrame::onActualSize(wxCommandEvent &WXUNUSED(event)) {
setZoom(MIN_ZOOM);
}
void AnalyzerFrame::onToggleViewMenuCheckBox(wxCommandEvent &event) { // NOLINT
GetMenuBar()->Check(event.GetId(), event.IsChecked());
updateViewMenu();
}
void AnalyzerFrame::onResetAndToggleViewMenuCheckBox(
wxCommandEvent &event) { // NOLINT
int id = event.GetId();
if (id != wxID_SHOW_Y && id != wxID_SHOW_U && id != wxID_SHOW_V) {
GetMenuBar()->Check(wxID_SHOW_Y, true);
GetMenuBar()->Check(wxID_SHOW_U, true);
GetMenuBar()->Check(wxID_SHOW_V, true);
}
onToggleViewMenuCheckBox(event);
}
void AnalyzerFrame::onNextFrame(wxCommandEvent &WXUNUSED(event)) {
panel->nextFrame();
panel->Refresh(false);
}
void AnalyzerFrame::onGotoFrame(wxCommandEvent &WXUNUSED(event)) {}
void AnalyzerFrame::onRestart(wxCommandEvent &WXUNUSED(event)) {}
void AnalyzerFrame::onAbout(wxCommandEvent &WXUNUSED(event)) {
wxAboutDialogInfo info;
info.SetName(_("AV1 Bitstream Analyzer"));
info.SetVersion(_("0.1-beta"));
info.SetDescription(
_("This program implements a bitstream analyzer for AV1"));
info.SetCopyright(
wxT("(C) 2017 Alliance for Open Media <negge@mozilla.com>"));
wxAboutBox(info);
}
bool AnalyzerFrame::open(const wxString &path) {
panel = new AnalyzerPanel(this, path, bit_accounting);
if (panel->open(path)) {
SetClientSize(panel->GetSize());
return true;
} else {
delete panel;
return false;
}
}
bool AnalyzerFrame::setZoom(int zoom) {
if (panel->setZoom(zoom)) {
GetMenuBar()->Enable(wxID_ACTUAL_SIZE, zoom != MIN_ZOOM);
GetMenuBar()->Enable(wxID_ZOOM_IN, zoom != MAX_ZOOM);
GetMenuBar()->Enable(wxID_ZOOM_OUT, zoom != MIN_ZOOM);
SetClientSize(panel->GetSize());
panel->render();
panel->Refresh();
return true;
}
return false;
}
void AnalyzerFrame::updateViewMenu() {
panel->setShowPlane(GetMenuBar()->IsChecked(wxID_SHOW_Y), OD_LUMA_MASK);
panel->setShowPlane(GetMenuBar()->IsChecked(wxID_SHOW_U), OD_CB_MASK);
panel->setShowPlane(GetMenuBar()->IsChecked(wxID_SHOW_V), OD_CR_MASK);
SetClientSize(panel->GetSize());
panel->render();
panel->Refresh(false);
}
class Analyzer : public wxApp {
private:
AnalyzerFrame *frame;
public:
void OnInitCmdLine(wxCmdLineParser &parser); // NOLINT
bool OnCmdLineParsed(wxCmdLineParser &parser); // NOLINT
};
static const wxCmdLineEntryDesc CMD_LINE_DESC[] = {
{ wxCMD_LINE_SWITCH, _("h"), _("help"), _("Display this help and exit."),
wxCMD_LINE_VAL_NONE, wxCMD_LINE_OPTION_HELP },
{ wxCMD_LINE_SWITCH, _("a"), _("bit-accounting"), _("Enable bit accounting"),
wxCMD_LINE_VAL_NONE, wxCMD_LINE_PARAM_OPTIONAL },
{ wxCMD_LINE_PARAM, NULL, NULL, _("input.ivf"), wxCMD_LINE_VAL_STRING,
wxCMD_LINE_PARAM_OPTIONAL },
{ wxCMD_LINE_NONE }
};
void Analyzer::OnInitCmdLine(wxCmdLineParser &parser) { // NOLINT
parser.SetDesc(CMD_LINE_DESC);
parser.SetSwitchChars(_("-"));
}
bool Analyzer::OnCmdLineParsed(wxCmdLineParser &parser) { // NOLINT
bool bit_accounting = parser.Found(_("a"));
if (bit_accounting && !CONFIG_ACCOUNTING) {
fprintf(stderr,
"Bit accounting support not found. "
"Recompile with:\n./cmake -DCONFIG_ACCOUNTING=1\n");
return false;
}
frame = new AnalyzerFrame(parser.Found(_("a")));
frame->Show();
if (parser.GetParamCount() > 0) {
return frame->open(parser.GetParam(0));
}
return true;
}
void usage_exit(void) {
fprintf(stderr, "uhh\n");
exit(EXIT_FAILURE);
}
IMPLEMENT_APP(Analyzer)